// Copyright 2017 Google Inc. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package android import ( "fmt" "reflect" "strconv" "testing" ) var firstUniqueStringsTestCases = []struct { in []string out []string }{ { in: []string{"a"}, out: []string{"a"}, }, { in: []string{"a", "b"}, out: []string{"a", "b"}, }, { in: []string{"a", "a"}, out: []string{"a"}, }, { in: []string{"a", "b", "a"}, out: []string{"a", "b"}, }, { in: []string{"b", "a", "a"}, out: []string{"b", "a"}, }, { in: []string{"a", "a", "b"}, out: []string{"a", "b"}, }, { in: []string{"a", "b", "a", "b"}, out: []string{"a", "b"}, }, { in: []string{"liblog", "libdl", "libc++", "libdl", "libc", "libm"}, out: []string{"liblog", "libdl", "libc++", "libc", "libm"}, }, } func TestFirstUniqueStrings(t *testing.T) { f := func(t *testing.T, imp func([]string) []string, in, want []string) { t.Helper() out := imp(in) if !reflect.DeepEqual(out, want) { t.Errorf("incorrect output:") t.Errorf(" input: %#v", in) t.Errorf(" expected: %#v", want) t.Errorf(" got: %#v", out) } } for _, testCase := range firstUniqueStringsTestCases { t.Run("list", func(t *testing.T) { f(t, firstUniqueStringsList, testCase.in, testCase.out) }) t.Run("map", func(t *testing.T) { f(t, firstUniqueStringsMap, testCase.in, testCase.out) }) } } var lastUniqueStringsTestCases = []struct { in []string out []string }{ { in: []string{"a"}, out: []string{"a"}, }, { in: []string{"a", "b"}, out: []string{"a", "b"}, }, { in: []string{"a", "a"}, out: []string{"a"}, }, { in: []string{"a", "b", "a"}, out: []string{"b", "a"}, }, { in: []string{"b", "a", "a"}, out: []string{"b", "a"}, }, { in: []string{"a", "a", "b"}, out: []string{"a", "b"}, }, { in: []string{"a", "b", "a", "b"}, out: []string{"a", "b"}, }, { in: []string{"liblog", "libdl", "libc++", "libdl", "libc", "libm"}, out: []string{"liblog", "libc++", "libdl", "libc", "libm"}, }, } func TestLastUniqueStrings(t *testing.T) { for _, testCase := range lastUniqueStringsTestCases { out := LastUniqueStrings(testCase.in) if !reflect.DeepEqual(out, testCase.out) { t.Errorf("incorrect output:") t.Errorf(" input: %#v", testCase.in) t.Errorf(" expected: %#v", testCase.out) t.Errorf(" got: %#v", out) } } } func TestJoinWithPrefix(t *testing.T) { testcases := []struct { name string input []string expected string }{ { name: "zero_inputs", input: []string{}, expected: "", }, { name: "one_input", input: []string{"a"}, expected: "prefix:a", }, { name: "two_inputs", input: []string{"a", "b"}, expected: "prefix:a prefix:b", }, } prefix := "prefix:" for _, testCase := range testcases { t.Run(testCase.name, func(t *testing.T) { out := JoinWithPrefix(testCase.input, prefix) if out != testCase.expected { t.Errorf("incorrect output:") t.Errorf(" input: %#v", testCase.input) t.Errorf(" prefix: %#v", prefix) t.Errorf(" expected: %#v", testCase.expected) t.Errorf(" got: %#v", out) } }) } } func TestIndexList(t *testing.T) { input := []string{"a", "b", "c"} testcases := []struct { key string expected int }{ { key: "a", expected: 0, }, { key: "b", expected: 1, }, { key: "c", expected: 2, }, { key: "X", expected: -1, }, } for _, testCase := range testcases { t.Run(testCase.key, func(t *testing.T) { out := IndexList(testCase.key, input) if out != testCase.expected { t.Errorf("incorrect output:") t.Errorf(" key: %#v", testCase.key) t.Errorf(" input: %#v", input) t.Errorf(" expected: %#v", testCase.expected) t.Errorf(" got: %#v", out) } }) } } func TestInList(t *testing.T) { input := []string{"a"} testcases := []struct { key string expected bool }{ { key: "a", expected: true, }, { key: "X", expected: false, }, } for _, testCase := range testcases { t.Run(testCase.key, func(t *testing.T) { out := InList(testCase.key, input) if out != testCase.expected { t.Errorf("incorrect output:") t.Errorf(" key: %#v", testCase.key) t.Errorf(" input: %#v", input) t.Errorf(" expected: %#v", testCase.expected) t.Errorf(" got: %#v", out) } }) } } func TestPrefixInList(t *testing.T) { prefixes := []string{"a", "b"} testcases := []struct { str string expected bool }{ { str: "a-example", expected: true, }, { str: "b-example", expected: true, }, { str: "X-example", expected: false, }, } for _, testCase := range testcases { t.Run(testCase.str, func(t *testing.T) { out := HasAnyPrefix(testCase.str, prefixes) if out != testCase.expected { t.Errorf("incorrect output:") t.Errorf(" str: %#v", testCase.str) t.Errorf(" prefixes: %#v", prefixes) t.Errorf(" expected: %#v", testCase.expected) t.Errorf(" got: %#v", out) } }) } } func TestFilterList(t *testing.T) { input := []string{"a", "b", "c", "c", "b", "d", "a"} filter := []string{"a", "c"} remainder, filtered := FilterList(input, filter) expected := []string{"b", "b", "d"} if !reflect.DeepEqual(remainder, expected) { t.Errorf("incorrect remainder output:") t.Errorf(" input: %#v", input) t.Errorf(" filter: %#v", filter) t.Errorf(" expected: %#v", expected) t.Errorf(" got: %#v", remainder) } expected = []string{"a", "c", "c", "a"} if !reflect.DeepEqual(filtered, expected) { t.Errorf("incorrect filtered output:") t.Errorf(" input: %#v", input) t.Errorf(" filter: %#v", filter) t.Errorf(" expected: %#v", expected) t.Errorf(" got: %#v", filtered) } } func TestRemoveListFromList(t *testing.T) { input := []string{"a", "b", "c", "d", "a", "c", "d"} filter := []string{"a", "c"} expected := []string{"b", "d", "d"} out := RemoveListFromList(input, filter) if !reflect.DeepEqual(out, expected) { t.Errorf("incorrect output:") t.Errorf(" input: %#v", input) t.Errorf(" filter: %#v", filter) t.Errorf(" expected: %#v", expected) t.Errorf(" got: %#v", out) } } func TestRemoveFromList(t *testing.T) { testcases := []struct { name string key string input []string expectedFound bool expectedOut []string }{ { name: "remove_one_match", key: "a", input: []string{"a", "b", "c"}, expectedFound: true, expectedOut: []string{"b", "c"}, }, { name: "remove_three_matches", key: "a", input: []string{"a", "b", "a", "c", "a"}, expectedFound: true, expectedOut: []string{"b", "c"}, }, { name: "remove_zero_matches", key: "X", input: []string{"a", "b", "a", "c", "a"}, expectedFound: false, expectedOut: []string{"a", "b", "a", "c", "a"}, }, { name: "remove_all_matches", key: "a", input: []string{"a", "a", "a", "a"}, expectedFound: true, expectedOut: []string{}, }, } for _, testCase := range testcases { t.Run(testCase.name, func(t *testing.T) { found, out := RemoveFromList(testCase.key, testCase.input) if found != testCase.expectedFound { t.Errorf("incorrect output:") t.Errorf(" key: %#v", testCase.key) t.Errorf(" input: %#v", testCase.input) t.Errorf(" expected: %#v", testCase.expectedFound) t.Errorf(" got: %#v", found) } if !reflect.DeepEqual(out, testCase.expectedOut) { t.Errorf("incorrect output:") t.Errorf(" key: %#v", testCase.key) t.Errorf(" input: %#v", testCase.input) t.Errorf(" expected: %#v", testCase.expectedOut) t.Errorf(" got: %#v", out) } }) } } func ExampleCopyOf() { a := []string{"1", "2", "3"} b := CopyOf(a) a[0] = "-1" fmt.Printf("a = %q\n", a) fmt.Printf("b = %q\n", b) // Output: // a = ["-1" "2" "3"] // b = ["1" "2" "3"] } func ExampleCopyOf_append() { a := make([]string, 1, 2) a[0] = "foo" fmt.Println("Without CopyOf:") b := append(a, "bar") c := append(a, "baz") fmt.Printf("a = %q\n", a) fmt.Printf("b = %q\n", b) fmt.Printf("c = %q\n", c) a = make([]string, 1, 2) a[0] = "foo" fmt.Println("With CopyOf:") b = append(CopyOf(a), "bar") c = append(CopyOf(a), "baz") fmt.Printf("a = %q\n", a) fmt.Printf("b = %q\n", b) fmt.Printf("c = %q\n", c) // Output: // Without CopyOf: // a = ["foo"] // b = ["foo" "baz"] // c = ["foo" "baz"] // With CopyOf: // a = ["foo"] // b = ["foo" "bar"] // c = ["foo" "baz"] } func TestSplitFileExt(t *testing.T) { t.Run("soname with version", func(t *testing.T) { root, suffix, ext := SplitFileExt("libtest.so.1.0.30") expected := "libtest" if root != expected { t.Errorf("root should be %q but got %q", expected, root) } expected = ".so.1.0.30" if suffix != expected { t.Errorf("suffix should be %q but got %q", expected, suffix) } expected = ".so" if ext != expected { t.Errorf("ext should be %q but got %q", expected, ext) } }) t.Run("soname with svn version", func(t *testing.T) { root, suffix, ext := SplitFileExt("libtest.so.1svn") expected := "libtest" if root != expected { t.Errorf("root should be %q but got %q", expected, root) } expected = ".so.1svn" if suffix != expected { t.Errorf("suffix should be %q but got %q", expected, suffix) } expected = ".so" if ext != expected { t.Errorf("ext should be %q but got %q", expected, ext) } }) t.Run("version numbers in the middle should be ignored", func(t *testing.T) { root, suffix, ext := SplitFileExt("libtest.1.0.30.so") expected := "libtest.1.0.30" if root != expected { t.Errorf("root should be %q but got %q", expected, root) } expected = ".so" if suffix != expected { t.Errorf("suffix should be %q but got %q", expected, suffix) } expected = ".so" if ext != expected { t.Errorf("ext should be %q but got %q", expected, ext) } }) t.Run("no known file extension", func(t *testing.T) { root, suffix, ext := SplitFileExt("test.exe") expected := "test" if root != expected { t.Errorf("root should be %q but got %q", expected, root) } expected = ".exe" if suffix != expected { t.Errorf("suffix should be %q but got %q", expected, suffix) } if ext != expected { t.Errorf("ext should be %q but got %q", expected, ext) } }) } func Test_Shard(t *testing.T) { type args struct { strings []string shardSize int } tests := []struct { name string args args want [][]string }{ { name: "empty", args: args{ strings: nil, shardSize: 1, }, want: [][]string(nil), }, { name: "single shard", args: args{ strings: []string{"a", "b"}, shardSize: 2, }, want: [][]string{{"a", "b"}}, }, { name: "single short shard", args: args{ strings: []string{"a", "b"}, shardSize: 3, }, want: [][]string{{"a", "b"}}, }, { name: "shard per input", args: args{ strings: []string{"a", "b", "c"}, shardSize: 1, }, want: [][]string{{"a"}, {"b"}, {"c"}}, }, { name: "balanced shards", args: args{ strings: []string{"a", "b", "c", "d"}, shardSize: 2, }, want: [][]string{{"a", "b"}, {"c", "d"}}, }, { name: "unbalanced shards", args: args{ strings: []string{"a", "b", "c"}, shardSize: 2, }, want: [][]string{{"a", "b"}, {"c"}}, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { t.Run("strings", func(t *testing.T) { if got := ShardStrings(tt.args.strings, tt.args.shardSize); !reflect.DeepEqual(got, tt.want) { t.Errorf("ShardStrings(%v, %v) = %v, want %v", tt.args.strings, tt.args.shardSize, got, tt.want) } }) t.Run("paths", func(t *testing.T) { stringsToPaths := func(strings []string) Paths { if strings == nil { return nil } paths := make(Paths, len(strings)) for i, s := range strings { paths[i] = PathForTesting(s) } return paths } paths := stringsToPaths(tt.args.strings) var want []Paths if sWant := tt.want; sWant != nil { want = make([]Paths, len(sWant)) for i, w := range sWant { want[i] = stringsToPaths(w) } } if got := ShardPaths(paths, tt.args.shardSize); !reflect.DeepEqual(got, want) { t.Errorf("ShardPaths(%v, %v) = %v, want %v", paths, tt.args.shardSize, got, want) } }) }) } } func BenchmarkFirstUniqueStrings(b *testing.B) { implementations := []struct { name string f func([]string) []string }{ { name: "list", f: firstUniqueStringsList, }, { name: "map", f: firstUniqueStringsMap, }, } const maxSize = 1024 uniqueStrings := make([]string, maxSize) for i := range uniqueStrings { uniqueStrings[i] = strconv.Itoa(i) } sameString := make([]string, maxSize) for i := range sameString { sameString[i] = uniqueStrings[0] } f := func(b *testing.B, imp func([]string) []string, s []string) { for i := 0; i < b.N; i++ { b.ReportAllocs() s = append([]string(nil), s...) imp(s) } } for n := 1; n <= maxSize; n <<= 1 { b.Run(strconv.Itoa(n), func(b *testing.B) { for _, implementation := range implementations { b.Run(implementation.name, func(b *testing.B) { b.Run("same", func(b *testing.B) { f(b, implementation.f, sameString[:n]) }) b.Run("unique", func(b *testing.B) { f(b, implementation.f, uniqueStrings[:n]) }) }) } }) } }